• 한국전자파학회논문지
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• 제16권5호
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• pp.472-481
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• 2005

본 논문에서는 Pareto 유전자 알고리즘을 이용한 최적화기법을 적용하여 UHF 대역 내에서 동작하는 crooked wire 형태의 RFID 리더 안테나를 설계하였다. 최적화 과정은 안테나의 제한된 크기, 반사 손실 대역폭(VSWR<2), 원형 편파 대역폭(Axial Ratio<3 dB), 인식 영역이 실제 조건과 인식 영역에 부합하도록 수행하였다 최적화된 안테나들 중 표본 안테나를 제작하였으며, 리더 안테나 특성을 측정하여 시뮬레이션 결과와 비교 및 검증하였다. 안테나 동작원리를 안테나 선로에 유기된 전류를 분석하여 설명하였으며, 안테나의 구조적 민감도와 주요 설계 변수(critical design parameters)를 찾기 위해 랜덤 에러(random error) 방식을 안테나 본체의 선로가 꺾이는 부분에 적용한 후, 안테나 구조와 원형 편파 대역폭 및 안테나 반사 손실 대역폭 사이의 관계를 정량화 하였다.

• 대한기계학회논문집B
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• 제34권10호
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• pp.941-946
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• 2010

1.7L 커먼레일 직접분사 디젤엔진에 대하여 바이오 디젤 연료가 conventional 연소(PM-NOx 트레이드오프 존재)와 저온 연소(low temperature combustion, LTC)에서 배기가스 배출에 미치는 영향을 분석하였다. LTC 연소는 conventional 연소 대비 다량의 EGR 과 연료분사 조건 최적화를 통하여 이루어졌다. 실험에 사용한 두 가지 연료는 초저유황 디젤연료(ultra low sulfur diesel fuel, ULSD), ULSD 에 대두유를 20%(vol. base)혼합한 바이오 디젤 연료(B20)이다. 사용된 연료에 관계없이 LTC 연소를 통하여 conventional 연소 대비 PM 및 NOx 의 동시 저감이 가능하였다. 동일한 엔진작동 조건에 대하여 conventional 연소의 경우 B20 는 ULSD 보다 PM은 적게 배출되나, NOx 는 많이 배출되었다. LTC 연소의 경우 B20 는 ULSD 보다 PM 및 NOx 생성이 많았다.

• 한국태양에너지학회 논문집
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• 제27권2호
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• pp.19-27
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• 2007

The previous study was conducted to develop an air source multi heat pump system that could be operated with the solar collector and air source heat exchangers as heat source of the system. There is a winter-sowing problems in air source multi heat pump system when the outdoor temperature goes down under freezing point. The winter-sowing problem was solved by adapting R-22 refrigerant as working fluid in the previous study. However, when the system operated at high temperature, another problems are come out such as overheating of the solar collector outlet which lead to the superheat of the compressor inlet of the heat pump system. The condition could deteriorates a compressor in some case. In this study, we installed the anti-superheating devices on the previously developed system. As results of system performance test, COP of the system with anti-superheating technique is 2.4. It is a little improved COP compare to previous study's 2.23. In the results of multi heat source heating system, during operating solar collector, COP is relatively high between $200\;W/m^2$ and $400\;W/m^2$ solar intensity. It is recommended to extend the study on performance optimization with balancing the solar collect and capacity of compressor at higher solar irradiation conditions.

• 한국항행학회논문지
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• 제26권4호
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• pp.185-194
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• 2022

항공전자 장비는 개발 시 다양한 환경 조건 및 성능이 요구되어지며, 이에 따른 개발 리스크에 대한 대책으로 최악조건의 회로 해석(WCCA)을 적용하여 성능사전분석을 수행한다. WCCA 은 부품소자레벨에서 온도 및 운용 기간의 노화를 고려하여 파라미터의 값을 도출한 후, 해당 회로의 모든 부품들의 파라미터 값을 조합하여 해당 파라미터의 최대 값과 최소 값을 산출한다. 본 논문에서는 WCCA 분석 적용을 위하여 필요한 사항에 대하여 기술하였다. 2장에서는 WCCA 기법인 EVA 및 RSS, Monte Carlo 등의 차이와 특성을 기술 하였다. 3장에서는 실제 분석하는 절차를 소개하기 위하여 예제 회로를 통한 분석 과정을 기술하였다. 4 장에서는 분석 대상 조건별 분석 기법의 선택 관련 내용을 기술하였다. 본 논문에 소개된 절차 및 분석방법을 개발 시 적용한 결과 사전에 성능 분석 및 부품 최적화 설계 검증이 가능함을 확인하였다.

• 한국전산유체공학회:학술대회논문집
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• 한국전산유체공학회 2008년도 춘계학술대회논문집
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• pp.256-259
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• 2008

Ejector system is a device to transport a low-pressure secondary flow by using a high-pressure primary flow. Ejector system is, in general, composed of a primary nozzle, a mixing section, a casing part for suction of secondary flow and a diffuser. It can induce the secondary flow or affect the secondary chamber pressure by both shear stress and pressure drop which are generated in the primary jet boundary. Ejector system is simple in construction and has no moving parts, so it can not only compress and transport a massive capacity of fluid without trouble, but also has little need for maintenance. Ejectors are widely used in a range of applications such as a turbine-based combined-cycle propulsion system and a high altitude test facility for rocket engine, pressure recovery system, desalination plant and ejector ramjet etc. The primary interest of this study is to set up an applicable model and operating conditions for an ejector in the condition of sonic and subsonic, which can be extended to the hydrogen fuel cell vehicle. Experimental and theoretical investigation on the sonic and subsonic ejectors with a converging-diverging diffuser was carried out. Optimization technique and numerical simulation was adopted for an optimal geometry design and satisfying the required performance at design point of ejector for hydrogen recirculation. Also, some ejectors with a various of nozzle throat and mixing chamber diameter were manufactured precisely and tested for the comparison with the calculation results.

• KSBB Journal
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• 제14권6호
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• pp.742-746
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• 1999

새로운 형태의 내부조사형 광생물반응기에서 Chlorella sp. HA-1의 이산화탄소 고정화 특성을 살펴보았다. 높은 이산화탄소 농도에서 균체를 적응시켜 10%와 20%(v/v) 이산화탄소 농도 모두에서 내성을 가지도록 하였다. 그리고 조도, 초기균체농도, pH 등을 조절하여 이산화탄소 고정화양, 372 $gCO_2/m^2{\cdot}day$을 얻었다. 또한 장시간 동안 지속적으로 배출되는 이산화탄소를 제거하기 위한 운전 방법으로 반연속식 배양방법을 사용하여 희석비를 0.1씩 증가시켰을 때 각 단계마다 균체성장속도를 일정하게 유지하는 결과를 얻었다.

• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2007년도 추계학술대회 논문집
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• pp.156-160
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• 2007

Ejector system is a device to transport a low-pressure secondary flow by using a high-pressure primary flow. Ejector system is, in general, composed of a primary nozzle, a mixing section, a casing part for suction of secondary flow and a diffuser. It can induce the secondary flow or affect the secondary chamber pressure by both shear stress and pressure drop which are generated in the primary jet boundary. Ejector system is simple in construction and has no moving parts, so it can not only compress and transport a massive capacity of fluid without trouble, but also has little need for maintenance. Ejectors are widely used in a range of applications such as a turbine-based combined-cycle propulsion system and a high altitude test facility for rocket engine, pressure recovery system, desalination plant and ejector ramjet etc. The primary interest of this study is to set up an applicable model and operating conditions for an ejector in the condition of sonic and subsonic, which can be extended to the hydrogen fuel cell vehicle. Experimental and theoretical investigation on the sonic and subsonic ejectors with a converging-diverging diffuser was carried out. Optimization technique and numerical simulation was adopted for an optimal geometry design and satisfying the required performance at design point of ejector for hydrogen recirculation. Also, some sonic and subsonic ejectors with the function of changing nozzle position were manufactured precisely and tested for the comparison with the calculation results.

• 한국분무공학회지
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• 제27권3호
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• pp.117-125
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• 2022

This study examines whether engine fuel efficiency is improved by optimization of the exhaust valve timing in a state where the intake valve timing has been optimized in a small turbo gasoline engine that has intake cams and exhaust cams with fixed valve opening periods. When the exhaust valve is opened late, the expansion stroke is longer, and the efficiency can be improved. A 2-cylinder turbo gasoline engine with 0.8 liters of displacement and an MPI (Multi Point Injection) fuel system was used. The engine was operated at 1,500 and 3,000 rpm, and the load conditions included a partial load of 50 N·m and a high load of 70 N·m. Data was recorded as the exhaust valve timing was controlled, and this was used to calculate the efficiency of combustion using a heat release, the fuel conversion efficiency, and the pumping loss. Results and the hydrocarbon concentrations in the exhaust gas were compared for each condition. Experiment results confirmed that additional fuel efficiency improvements are possible through exhaust valve timing control at 1,500 rpm and 50 N·m. However, in other operating conditions, fuel efficiency improvements could not be obtained through exhaust valve timing control because cases where the pumping loss and fuel/air mixture slip increased when the exhaust valve timing changed and the fuel efficiency declined.

• 멤브레인
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• 제33권6호
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• pp.369-376
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• 2023

본 연구에서는 에너지 소모가 큰 기존 진공 증류 공정의 대안으로 친환경이면서 에너지 효율적인 투과증발 분리공정을 이용하여 1,2 hexane diol/water (1,2 HDO/water) 혼합물에서 물을 분리하는 데 적용되었다. 사용한 분리막은 glutaraldehyde (GA)로 가교된 PVA를 알루미나 중공사 막(Al-HF) 내부에 코팅하여 사용하였다. 1,2 HDO/water 투과증발 분리공정에서는 PVA/GA 비율, 경화 온도 및 투과증발 분리공정 운전 조건에 대한 막의 최적화를 연구하였다. 장기 안정성 시험에서 PVA/GA (몰 비율 = 0.08, 경화 온도 = 80℃) 로 코팅된 Al-HF 막이 공정온도 40℃에서 1.90~2.16 kg/m²h 범위의 투과도를 보였으며, 투과용액의 수분 함량은 99.5% (separation factor = 68) 이상이었다.

• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2010년도 춘계학술대회 초록집
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• pp.244.1-244.1
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• 2010

Bio energy development by using Low Calorific Gas Turbine(LCGT) has been developed for New & Renewable energy source for next generation power system, low fuel and operating cost method by using the renewable energy source in landfill gas (LFG), Food Waste, water waste and Livestock biogas. Low calorific fuel purification by pretreatment system and carbon dioxide fixation by green house system are very important design target for evaluate optimum applications for bio energy. Main problems and accidents of Low Calorific Gas Turbine system was derived from bio fuel condition such as hydro sulfide concentration, siloxane level, moisture concentration and so on. Even if the quality of the bio fuel is not better than natural gas, LCGT system has the various fuel range and environmental friendly power system. The mechanical characterisitics of LCGT system is a high total efficiency (>70%), wide range of output power (30kW - 30MW class) and very clean emmission from power system (low NOx). Also, we can use co-generation system. A green house designed for four different carbon dioxide concentration from ambient air to 2000 ppm by utilizing the exhaust gas and hot water from LCGT system. We look forward to contribute the policy for Renewable Portfolio Standards(RPS) by using LCGT power system.